High-precision EMG signal decomposition using communication techniques

This paper presents a new approach to the decomposition of electromyographic (EMG) signals, EMG signals consist of a superposition of delayed finite-duration waveforms that carry the information about the firing of different muscle fiber groups. The new approach is based on a communication technical interpretation of the EMG signal, The source is modeled as a signaling system with interssymbol-interference, which encodes a well-defined sparse information sequence. This point of view allows a maximum-likelihood (ML) as well as a maximum aposteriori (MAP) estimation of the underlying firing pattern to be made. The high accuracy attainable with the proposed method is illustrated both with measured and artificially generated EMG signals.